Cap shape supporting and form maintaining device, aka &#34;HatNoodle&#34; and method of storage for cap

ABSTRACT

A shape supporting and form maintaining device, known as a “HatNoodle”, for a cap. The cap includes two components, an essentially hemispherical crown component and an attached visor component. The aforementioned “HatNoodle” device is constructed from a resilient material and includes a bottom surface and an essentially convex top surface. The bottom surface may contain a plurality of holes that extend into, but not completely through, the material of the device and are used when installing the device into a cap. The top surface of the device contains a plurality of slots wherein each slot begins at the center of the top surface of the device and proceeds outward in a radial direction. The slots facilitate installing a cap onto the device. These slots also allow the device to better conform to the shape of the inside surface of the crown of the cap hat it resides within.

CROSS REFERENCE TO RELATED APPLICATIONS

The present application is a non-provisional patent application claiming the benefit, under 35 U.S.C. 119(e), of U.S. Provisional Patent Application Ser. No. 60/605,341, filed Aug. 27, 2004, herein incorporated by reference.

FIELD OF THE INVENTION

The present invention relates to a shape supporting, or form-maintaining device for a cap, particularly for a baseball cap, sports cap or similar cap. Specifically, the present invention relates to a shape supporting and form maintaining device for baseball, sports or similar caps that includes a capability to adjust its size and form to the cap's size and form. Even more specifically, the present invention relates to a shape supporting and form maintaining device for baseball, sports or similar caps that includes a plurality of slots in its top surface that allow said device to adjust its size and form to fit the cap's size and form.

BACKGROUND OF THE INVENTION and DESCRIPTION OF RELATED ART

Many items, products and articles of apparel made of cloth, leather and other natural and artificial fabrics and materials and combinations of such materials possess a characteristic shape and form that is both functional and aesthetically pleasing. During the manufacturing or fabrication of such items, products or articles of apparel, special processes, operations, components, fixtures and procedures are incorporated and used to create, preserve and maintain this characteristic shape. One such example is the inclusion or use of stiffening structures or compounds such as adding a stiffened backing material to a component or article for the purpose of stiffening a panel or section that is subject to folding, creasing or crushing pressures. Another example is the common practice of adding stiffness to a fabric by starching it. Other processes, operations, components, fixtures and procedures are included in the manufacturing or fabricating process to not only define and establish the form and shape of these items when they are sold, but to protect and maintain that shape as long as possible afterward.

From the effort and cost associated with implementing these shape supporting and form maintaining measures, it may be inferred that producing a product with an aesthetically pleasing appearance is a primary goal of the manufacturing or fabrication process. It may also be inferred that another primary goal of the manufacturing or fabrication process is to ensure that the item will retain its characteristic and aesthetically pleasing shape and form while subject to the rigors of use, transportation and storage.

The inclusion and incorporation of the processes, operations, components, fixtures and procedures to establish and preserve the shape and form of articles and items of apparel are indicative of the desire of the user to not only purchase attractive and well-formed items, but to maintain them in that same pleasing form thereafter. In view of this desire by the purchaser or user to obtain a well-formed and shaped item and to keep that item in the same pristine condition as when purchased, it can be concluded that a large portion of the value of the item resides in its shape and appearance. The cost of the special processes, components, fixtures and procedures used in the manufacture of the articles, products and items of apparel is justified by the additional value imparted to the end product. That value can be diminished or lost when the appearance of the product is damaged or changed through even careful use, transport or storage of the articles, products and items of apparel.

An example of such an item, product or article of apparel is the baseball cap. The term “baseball cap”, or even just the word “cap”, is intended in this application intended to also include sports and similar caps. These caps include a wide variety of different shapes and configurations and are manufactured from an equally wide variety of fabrics and materials. Such caps may include a visor or bill, or be visorless. They may be essentially hemispherical in shape, or non-hemispherical. Many more options and variations are available, including but not limited to, colors, materials, size, incorporation of decorative insignia or devices, etc.

The prototype for what can be considered the standard variety of baseball or sports cap in use today is the “Brooklyn” or “5950” baseball cap. This model traces its origin to the 19^(th) century when it was introduced as an alternative to the berets, derby caps and the like worn by various baseball teams and players. From this introduction, the baseball cap, and again this includes sports caps and other styles of visored or visorless, brimmed or brimless, hemispherical shaped or non-hemispherical shaped caps, has developed and evolved from a non-essential baseball uniform option into the ubiquitous and utilitarian fashion accessory it is today. It can be said with some truth that the baseball, or sports, cap has essentially supplanted most, if not all, other styles and varieties of men's hats for daily wear.

In one of its common implementations, a baseball cap includes two main sections, the crown and the visor. The crown of a baseball or sports cap may have a hemispherical shape that may or may not be elongated to better fit the head of the user. Many variations of this basic form, such as caps with cylindrically shaped crowns, exist. A visor is often attached to the front of the cap at the base or brim of the crown to shield the wearer's eyes from the sun.

When a quality cap is purchased, it normally possesses a shape and form that exemplifies the aesthetically pleasing characteristics desired by the purchaser. The cap may be purchased for wearing, to be placed in a cap collection or even to be included as a component in an artistic display of sports equipment and/or memorabilia. Regardless of the intended use of the cap, the purchaser would like to maintain the cap in the same pristine condition as when it was purchased.

Maintaining the desired shape and form of a cap after purchase can be very difficult because of the demands placed on the cap when it is worn, transported or stored. Even determining how to store a cap in such a way as to preserve its form and shape can be a problem. Simple expedients for cap storage such as hanging it from a coat hook or placing it on a hat or coat rack can eventually cause the crown of the cap to stretch and deform with time. Merely storing the cap on a shelf or on some other flat surface may cause the crown to sag and lose its shape.

Wearing a cap may cause the crown to become deformed or to lose its shape. Transporting the cap in a piece of luggage, a gym bag, or another container may cause the crown to become crushed, wrinkled or deformed, marring the cap's appearance. These issues clearly indicate the need for a device whose functions go beyond preserving the shape of a cap's crown. A device is needed that can help to preserve the characteristic shape and form of the crown cap's crown when it is not being worn while at the same time facilitating the restoration of the shape of the cap's crown after the cap has been crushed or deformed.

Baseball caps become dirty and soiled through use, transport or storage and may need to be washed or laundered from time to time. Also, a cap may become wet during use. If a laundered or wet cap is not dried properly, the crown can become deformed and lose its shape. There exists a need for a device to be employed to form and shape the cap's crown during the drying process. This problem is separate from the problem of maintaining the shape of the visor of a cap, if one is present.

Some inventions have been proposed that have attempted to address the various aspects of the shape maintaining or shape enforcement problem faced by the hat owner. U.S. Pat. No. 5,012,531 describes a case or holder for a cap that attempts to maintain the shape or form of the hat while it is being transported. This solution is not optimal because it requires the user to fold the crown of the cap in order to use the device.

U.S. Pat. No. 5,725,134 describes a method of using a device made of a resilient, compressible material to retain the shape of a baseball, sports or similar cap. The method and device do not require the user to fold the crown of the cap. However, the method patented and the device disclosed in the patent do not incorporate methods, procedures, structures or devices that address the problem caused by the exertion of excessive force by the device against the inner surface of the crown of the cap during the insertion process. This force can make the device difficult to insert and can distort or damage the shape of the cap. Additionally, the apparatus mentioned in U.S. Pat. No. 5,725,134 is shown incorporating a plurality of ventilating holes extending through the material of the disclosed device. When the disclosed device is in use, the holes are pressed against the inner surface of the crown of the cap and may wrinkle or deform the cap. More additionally, the device disclosed in the patent requires the user to manually compress the material of the device for the purpose of inserting it into the crown of a cap. More additionally, the device disclosed does not contain aspects or features to prevent or reduce pressure on the brim of the cap while it is both being inserted into a cap and while it is in place in the cap. This pressure can deform the brim of the cap, or it may damage the cap size adjustment feature often incorporated into the brim of a cap.

U.S. Pat. No. 6,648,189 discloses a device similar to that shown in U.S. Pat. No. 5,725,134. Both patents require the use of a compressible material to allow insertion of the device into a cap by squeezing it to compress its size, inserting it and then releasing it to allow it to regain its former shape. There are two problems with this approach. One of the problems is that compressing the device for insertion requires significant effort and could prove difficult to properly accomplish. A second problem is that the pressure exerted against the inside surface of the crown of the cap may be excessive, causing fatigue and perhaps damage to the hat. Also, the feature of the device disclosed in U.S. Pat. No. 6,648,189 that requires the material of the device to extend below the brim of the cap when it is in place, making it visible when inserted, could preclude its use when the hat is to be displayed for viewing with the device in place. The device disclosed also does not contain aspects or features to prevent or reduce pressure on the brim of the cap or any adjustment mechanism incorporated in the brim.

The hat shaping arrangement described in U.S. Pat. No. 6,253,973 discloses an inflatable bladder that is placed inside the crown of the cap and then inflated to shape or form a cap. This patent additionally discloses a pump used to inflate the arrangement and valving used both to contain the air held within and to control its the release from the bladder as needed.

U.S. Pat. Nos. 4,858,247 and 5,148,954 disclose inventions that are cut from a flat sheet of material and then bent into a circular form and fitted into the crown of the cap. The construction and use of the disclosed inventions indicates that the devices themselves could be crushed during the storage and transport of a cap. The inventions also require considerable configuration or setup before they can be fitted into cap and may not be suitable for frequent use.

Other devices, apparatus and arrangements such as the device described in U.S. Pat. No. 6,311,879 address the problem of protecting the shape of the cap's visor. This visor is normally attached to the brim of the cap. Devices, apparatus or methods that protect the visor do not necessarily include aspects or features that protect the shape and form of the hat crown. Other devices that do protect the crown of the cap may not necessarily allow the cap to be displayed while the device is in place.

Using a simple convex, spherically or hemispherically shaped device could provide a solution that could protect and maintain the shape and form of a cap's crown. However, such a simple shape could prove difficult to insert into the cap's crown. If a hollow spherical or hemispherical device is substituted for a solid device, this does not markedly improve the ease of insertion of the device into the crown of the cap. The difficulty in insertion is due to the fixed size of the device and the difficulty in modifying the shape of the device so that it can be inserted into the cap. If such a device is forced into a cap, the act of insertion itself could crease, wrinkle or possibly damage the cap. Also, such a device may not include any aspects or features to allow it to conform to the shape of the inner surface of the crown of the cap while in place.

Another problem of using a hemispherically shaped device is that pressure is exerted over the entire inner surface of the cap, including the brim lining the bottom of the cap. Many caps include a device in the brim to allow adjusting the size of the cap to the wearer's head. Using a device that applies force to the brim may damage or cause premature failure of the cap due to failure of this adjustment device.

BRIEF SUMMARY OF THE INVENTION

The current invention is a device that, when in place in the crown of a baseball, sports or similar cap, provides functionality in three areas that are considered particularly important to the owner of such a cap. The intended functionality of the device includes maintaining the shape of a cap into which it has been placed, prevention of deformation of the cap during transportation or storage and restoration of the shape of a cap that may have become deformed during use, storage or transport. The device is made of a resilient material and contains aspects and features to allow it to easily be inserted into the crown of a wide variety of baseball, sports and similar caps. The device is held in place by a friction fit between the outer surface of the device and the inner surface of the cap's crown. As an option, the device may be fabricated in a tapered or “mushroom” shape wherein the circumference of the device is reduced or tapered where it touches the brim or base of the cap. This reduction in circumference acts to protect the cap's brim and any adjustment mechanism incorporated therein. This aspect protects the brim area of a cap and any associated adjustment devices contained both during and after the insertion of the device into a cap.

One aspect of this invention is exemplified by one or more slots or slits molded or cut into the top surface of the device. During installation, these slots allow the material of the device to move inwardly, into the area of the slots, to allow the cap to be easily fitted over the device. The slots also allow the device to better conform to the shape of the cap both during the installation process and while the device is installed inside the cap. This aspect of the invention facilitates the capability of the cap shape supporting and form maintaining device to better conform to the different sizes, shapes and contours of caps.

During installation of the cap shape supporting and form maintaining device, the user has a selection of methods to use to facilitate easy placement of the device into the cap. One such method is to simply place the cap over the device and push the cap into place on the device. Another method incorporates the use of indentations or holes in the bottom of the device that the user grabs and squeezes to allow placement of the device into the cap. Once fitted in place against the inner surface of the crown of the cap, the pressure exerted by the cap shape supporting and form maintaining device against the inner surface of the cap crown helps in the ways described to form and shape the cap.

BRIEF DESCRIPTION OF THE DRAWINGS

The Figures show different aspects of a preferred embodiment of the invention and how it is installed or applied to the cap to be shaped or preserved.

FIG. 1 illustrates a view of what is considered to be a typical baseball cap, similar in style to those encountered every day.

FIG. 2 illustrates a view of a preferred embodiment of the cap shape supporting and form maintaining device.

FIG. 3 illustrates a view, from the bottom, of a preferred embodiment of the hat shape supporting and form maintaining device. One embodiment of the optional indentations or holes in the bottom of the device is also illustrated.

FIG. 4 illustrates a view, from the top, of a preferred embodiment of the hat shape supporting and form maintaining device.

FIG. 5 illustrates how a typical baseball or sports cap may be fitted over a preferred embodiment of the hat shape supporting and form maintaining device.

Certain features of interest are denoted by numeric designations in the illustrations.

-   1—A representative baseball or sports cap. -   2—The crown of the representative baseball or sports cap. -   3—The visor or bill of the representative baseball or sports cap. -   4—The brim or base of the representative baseball or sports cap. -   5—Display area on the representative baseball or sports cap. -   6—Representation of a typical size adjustment mechanism on a     representative baseball or sports cap. -   10—The hat shape supporting and form maintaining device, or     “HatNoodle”. -   11—The first or bottom surface of the device. -   12—The second or top surface of the device. -   14—Slots in the top surface of the hat shape supporting and form     maintaining device. -   15—Holes in the bottom surface of the hat shape supporting and form     maintaining device. -   22—Termination of holes inside the bottom surface of the hat shape     supporting and form maintaining device. -   24—Center of first or bottom surface of the hat shape supporting and     form maintaining device. -   32—Center of second or top surface of the hat shape supporting and     form maintaining device. -   33—The trace of the periphery around the second or top surface of     the hat shape supporting and form maintaining device. -   34—Front Lobe of second or top surface of the hat shape supporting     and form maintaining device.

DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT OF THE INVENTION

Introduction:

In order to obtain a thorough understanding of the invention, a detailed description of a preferred embodiment of the invention is described here. This description relies on and refers to the drawings. Specific parts of the drawings are assigned a number and are referenced by that number. The drawing references will attempt to be consistent as possible. The present invention is particularly applicable to baseball or sports caps and the like, and is described herein with references to such caps. However, the device is also useable with other types of hats or headgear in addition to the sports or baseball caps described herein. Additionally, the device is useful not only during the transportation of caps, but also during their storage or display.

The Manner of Cap Used in a Preferred Embodiment of the Invention:

FIG. 1 illustrates a baseball or sports cap 1. This cap is representative of a large plurality of designs available. The representative cap essentially comprises two major sections, the crown 2 and the visor or bill 3. The crown 2 of the cap is of an essentially hemispherical and convex shape, that is manufactured in a very wide range of shapes, styles and sizes to fit a wide range of user's heads. The brim 4 of the cap proceeds around the base of the crown 2. The bill or visor 3 attaches to the brim of the cap at its front. The front area of the cap may contain a relatively flattened display area 5 for where a logo, team insignia, message, etc may be applied, attached or impressed on the cap. These logos, etc. may also be applied to other areas of the cap, along with other accoutrements such as trademarks, materials tags, etc. The rear of the cap may contain an adjusting apparatus 6 that allows the user to changes the cap size for a better fit. Additional aspects of the cap such as buttons, embroidery, and other primarily decorative and optional items are sometimes attached to the crown. The presence or absence of these decorative items does not affect how the cap shape supporting and form maintaining device is used.

The Cap Shape Supporting and Form Maintaining Device:

FIG. 2 illustrates a preferred embodiment of the cap shape supporting and form maintaining device 10. This particular embodiment relates to a device with a bottom, or first surface 11 and a top, crown or second surface that is essentially hemispherical or convex in shape 12. In a preferred embodiment of the cap shape supporting and form maintaining device, the base of the second surface is somewhat oval in shape. Additionally, in a preferred embodiment of the device, there is a plurality of cuts or slots 14 in the top surface. More additionally, in a preferred embodiment of the cap shape supporting and form maintaining device, the circumference of the top surface measured at a plane parallel to and near its base is somewhat smaller than its circumference at a plane a distance up from the base of the device. Optionally, there can be a plurality of holes or indentations 15 in the bottom surface of the device

The approximate dimensions of the device are in the range of 12-36 cm in the front to back dimension, 10-30 cm in the side to side dimension and 6-20 cm in height. The manner in which the devices tapers in circumference from its maximum value measured at a plane located some distance up from the base of the device to its minimum value measured at a plane located near the base is such that the device's base circumference may be five to twenty-five percent smaller than the maximum circumference measured farther up the top surface. The circumference expands in a linear fashion with respect to its value near the base of the device to its maximum value a distance up from the base. The shape of the top surface of the device facilitates the conformance of the device's top surface to the shape of the inside surface of the crown of the cap.

Besides the basic convex or hemispherical shape of the crown of the device, an oval shape allows the device to more exactly conform to the shape of a baseball, sports or similar cap. The invention can also be practiced with a true hemispherical shape.

In a preferred embodiment, the cap shape supporting and form maintaining device 10 is comprised of a resilient and flexible material. The lack of a requirement for compressibility in the volume of the material of the device allows a larger range of materials and construction techniques for the device than if a compressible material, such as foam rubber, were specified for the device. Again, this ability to function using an essentially non-compressible material is due chiefly to the mechanism comprising the slots in the device's top surface that assist in the flexing of the device as it is inserted into and removed from the cap.

Some examples of materials suitable for the device's composition include natural and synthetic rubbers, including isoprene, latex and polyurethane. Other suitable materials for the devices construction could also include such materials as butadiene, butyl, chlorobutyl, chlorinated polyethylene, chlorosulphonated polyethylene, ethylene propylene, nitrile, polychloroprene, polyurethane and styrene butadiene polyethylene rubber and plastic compounds and combinations thereof. The breadth of the list is not intended to be exhaustive, but illustrative of the large variety of materials suitable for use in the construction of the device.

The device may be constructed from a solid block of the chosen material. Open or closed cell foamed compositions may also be used in the construction of the device to lighten its weight. One example of such a resilient, flexible material suitable for use in the device is an open-celled foam rubber such as polyurethane foam rubber. The device may also be fabricated using other resilient materials of either open-cell or closed-cell foamed construction. The use of a solid material in the fabrication of the device is possible if the chosen material is sufficiently flexible and resilient to allow the slots in the top of the device to move as the device is fitted into a cap. To decrease the weight of the device, Holes or voids in the material of the device could be included to reduce the device's weight. An essentially hollow construction would be another method to reduce the weight of the cap shape supporting and form maintaining device. In this hollow construction, even cardboard could be a suitable material for use in the construction of the device.

The use of a solid material in the construction of the cap shape supporting and form maintaining device is possible because of the aspects and features of the device. These aspects and features allow the cap shape supporting and form maintaining device to be easily fitted into a cap and to conform to the shape and size of the crowns of different sized and shaped caps.

FIG. 3 shows a view of the bottom or first surface 11 of a preferred embodiment of the cap shape supporting and form maintaining device 10. This bottom surface may incorporate a plurality of indentations or holes 15 that extend upward into the body of the device. The holes do not extend completely through the device to form channels from the bottom surface to the top surface of the device, but terminate in the device's interior 22. An aspect of the holes is that they can be used to facilitate the insertion of the device into a cap. The presence of the indentations or holes is considered an option since the invention may be practiced without them.

The aspect of the indentations or holes in the bottom surface of the device such that they do not extend entirely through the crown of the device to the top surface is significant. This is because the presence of holes in the top surface of the device could cause wrinkles and creases to be impressed into the cap crown as the device is pressing against it. The absence of holes in the upper surface of the cap shape supporting and form maintaining device removes this possible cause of wrinkles or creases.

Again, referring to FIG. 3, there are three essentially cylindrical holes 15 positioned symmetrically around the central axis 24 of the hemispherical crown of a preferred embodiment of the cap shape supporting and form maintaining device 10. Additionally, in a preferred embodiment of the cap shape supporting and form maintaining device, the three holes are approximately 2.54-cm (1 inch) wide. Still more additionally, in a preferred embodiment of the cap shape supporting and form maintaining device, each of the holes 15 are positioned so that the central axis of each hole is aligned in a direction pointing slightly away from the center 24 of the cap shape supporting and form maintaining device 10. Still more additionally in a preferred embodiment of the cap shape supporting and form maintaining device, the holes extend about 4-7 cm into the device. The holes terminate in the device's interior in circles 22 that are slightly smaller than the openings in the bottom of the device. In a preferred embodiment of the cap shape supporting and form maintaining device, the holes are spaced equidistantly around the center of the cap 24, between the spaces occupied by the slots 14 in the top surface of the device.

The disclosure of the shape and configuration of the holes in the bottom surface of the cap shape supporting and form maintaining device is intended to illustrate a preferred embodiment of the device. However, this does not limit the permitted shapes of the holes, the permitted positioning of the holes, the permitted number of the holes, including their absence, the permitted configurations of the holes, etc. that can be included when practicing this invention. To elaborate on this, alternative embodiments of the invention may include holes that are not triangular, but are oval, round or other curved shapes, or are square, rectangular or any other flat-sided or polygonal shapes or are shapes that include combinations of curves, flat-sides and polygons. Also, the hole depth is not restricted to the 7 cm depth disclosed, but may have depths that range from 5% of the thickness of the device to 95% of the device thickness. Additionally, the number of holes is not restricted to three, but may include between two and six holes and the holes may be distributed non-symmetrically about the central axis of the device or may not be aligned with the central axis of the device at all. More additionally, the width of each hole can range from 1.0 to 4.0 cm. More additionally, the holes may extend in directions that do not point toward the center of the cap, but may point in a different direction and the holes may even intersect one another. More additionally, the invention can also be practiced using holes that are not matched in size, shape or configuration, but may include combinations of the various hole configurations and sizes described herein. Even more additionally, the invention may be practiced without the indentations or holes.

FIG. 4 shows a plurality of slots or cuts 14 in the top, or second, surface of the cap shape supporting and form maintaining device 10. In a preferred embodiment of the cap shape supporting and form maintaining device there are three “V”-shaped slots 14. In a preferred embodiment of the device, the “V”-shaped slots are approximately 4.5 cm (1.75 inch) wide at the top surface of the cap crown and taper linearly as they proceed into the material of the device to end approximately 4.5 cm (1.75 inches) into the interior of the crown. In a preferred embodiment of the cap shape supporting and form maintaining device, the slots begin at the center of the top of the essentially hemispherical crown of the device 32 and proceed radially outward toward the crown periphery 33. One feature of the slots is that they divide the crown portion of the hat shape supporting and form maintaining device into lobes. In a preferred embodiment of the device, one of these lobes 34 is positioned to support the front area of the crown of the cap while the other two lobes support the sides and meet at the rear section of the cap.

In a preferred embodiment of the cap shape supporting and form maintaining device the slots 14 in the top surface of the device are not placed directly over any holes or indentations 15 present in the bottom of the device, but are placed in the center of the spaces between the holes. In other words, when the device is viewed from the top as shown in FIG. 4, the holes 15 and the slots 14 are positioned so that they alternate symmetrically about the central axis 32 of the hemispherical shape of the cap shape supporting and form maintaining device. Again, there are embodiments of this invention that do not incorporate the holes in the bottom surface or surfaces of the device.

An important aspect of the slots in the top of the cap shape supporting and form maintaining device is that they provide features and aspects that facilitate the compliance of the top surface of the device with the shape of the inner surface of the cap. This compliance allows the cap to be easily fitted onto the device. As a cap is fitted into place onto the device, it flexes so that the device's sections or lobes, whose boundaries are defined by the slots and the outline of the device, move into the voids of the slots, effectively reducing the circumference of the top surface of the device so that it may comply with the shape of the inside surface of the cap. This allows the cap to slide into place over the device and greatly facilitates the installation of a cap onto the device. The aspect of the device wherein its circumference in the area of its brim or base is reduced compared to the top of the device, aids in fitting the device into a cap.

Another feature of the slots is that they allow the device to flex after it is in place inside the cap. This flexing allows the device to better conform to the shape of the inside of the crown of the cap. This, in turn, allows the device to better conform to a wider range of cap shapes and sizes than a device lacking the slots. The flexing of the slots in the top surface of the cap shape supporting and form maintaining device also allows it to be easily removed from a cap. If the holes or indentations in the bottom of the cap are present, the slots work in combination with the holes to aid in the insertion and removal of the device.

The cap shape supporting and form maintaining device may also be practiced with other configurations of slots including curved or spiral slot arrangements. Other manifestations of the slots such as a slitted or “U”-shaped, or other shaped cuts or slotted indentations can be used in place of, or in addition to, the “V”-shaped slots described in a preferred embodiment of the cap shape supporting and form maintaining device.

The size of the slots can also vary so that the width of the slots or cuts on the top surface of the cap may be from one cm to eight cm wide. The taper of the slots as they proceed into the material of the cap shape supporting and form maintaining device can also vary from the essentially linear taper present in a preferred embodiment. Slots can also be substituted or added that do not necessarily intersect the center of the device, but which proceed either from an internal point or a point on the circumference of the device and proceed partially or fully across the top surface of the device. It is the functionality of the slots in facilitating the device's insertion into and removal from a cap and their function while inserted in the cap that shows the utility of this aspect of the invention.

The manner in which the device may be used with a representative cap is shown in FIG. 5. This illustration shows how the cap 1 is fitted over the device 10. The front of the cap, containing the visor 3, is aligned with the front lobe of the device 34. The cap is then pushed onto the device to allow the slots 14 to flex in such a manner that the cap slips into place over the device.

Usage of the Cap Shape Supporting and Form Maintaining Device:

To amplify and better explain how the device and its various aspects and features function, a short description of several installation and usage procedures for the device is presented. These procedures are described for a preferred embodiment of the invention.

Referring to FIGS. 1-5, one method for inserting the cap shape supporting and form maintaining device into a cap involves placing the device on a surface, placing the cap over the device and pressing the brim area of the cap onto the device. The device responds to this pressure by flexing so that the material of the lobes moves into the volume of the slots. This allows the cap to easily slip over the device into place against the inner surface of the crown of the cap.

In addition to supporting the shape and maintaining the form of the cap, the tension created by the interaction of the cap and the cap shape supporting and form maintaining device helps the combination of the two resist external forces that may be applied to the cap and device during transport, display or storage. This is assisted by the aspects of the slots in the top of the device that allows the equalization of the shaping forces exerted by the device against the inside of the cap's crown. This equalization of forces helps to minimize the formation of creases or wrinkles that could otherwise be caused by the insertion of the cap shape supporting and form maintaining device into a cap.

Again referring to FIGS. 1-5, another procedure for inserting the device, this time containing the optional holes or indentations in its bottom surface, into a cap is characterized by the user inserting their fingers into the holes or indentations. The user then applies pressure to the holes to cause the cap shape supporting and form maintaining device to flex so that the material of the lobes moves into the volume of the slots. This action temporarily reduces the size or circumference of the upper part of the top surface of the device.

The device is then inserted into the cap while in its reduced size state and placed against the inner surface of the cap's crown. After positioning the device, the user releases or relaxes their grip on the holes. This causes the device, due to the resiliency and flexibility of the material comprising it, to attempt to regain its original shape. As it does, it presses against the inside surface of the crown of the cap. The crown resists the force of the device pressing against it, creating a tension between the device and the crown of the cap. This tension serves to shape and form the cap. The slots in the top of the crown of the device aid in creating this tension between the device and the crown of the cap. Because the circumference of the device's crown tapers near the base of the brim area, not as much tension or pressure is exerted against the brim area of the cap, protecting the cap's brim from being stretched and the size adjustment mechanism commonly incorporated into the cap's brim from being damaged.

Fabrication of the Cap Shape Supporting and Form Maintaining Device:

Many methods may be used in the fabrication and production of the cap shape supporting and form maintaining device. One method would employ the use of single-cavity or multiple-cavity injection molds. An advantage of this method of manufacture is that the inside of the mold may be treated with a compound prior to the injection stage. These compounds include surfacing agents that impart a desired surface on the device, releasing agents for freeing the device from the mold after injection, coloring agents applied to the surface of the device, or other compounds selected to impart a desired feature to the device, or to aid in the manufacturing process.

As part of the fabrication process, the other structures present in the device such as the optional indentations or holes in the bottom surface of the device and the slots or slits in the top surface of the device must be created. The features or aspects required to create these structures may be incorporated into the molds used during the injection molding process, or they may be created by additional operations performed on the devices after the injection molding stage. These additional operations may be required to allow the inclusion of holes and slots that could not be incorporated into a mold. Specifically, it may be easier to form a narrow slit or a slanted hole in the cap during a post-injection step that is separate from the injection molding operation.

Other manufacturing methods besides injection molding may be used to produce the cap shape supporting and form maintaining device. One such method involves fabricating the device from a mass of the resilient material and then shaping it by shaving or otherwise forming it to the desired shape. This manufacturing method may require extra operations to create the holes in the bottom of the device and the slots in its top. An extra surface finishing operation may also be required. Another production method would use a blow molding process to produce the hollow versions of the device described.

The preceding description of a preferred embodiment of the invention was presented to illustrate and describe the invention. This description was not intended to be, and should not be interpreted as being, a complete listing of all possible aspects and features of the invention. Nor was it intended to limit the scope of the invention to the exact embodiment or embodiments disclosed therein. The disclosure contains a description of the embodiment chosen to best illustrate the invention and how it is constructed so that a person having ordinary skill in the art may practice it. To this person having ordinary skill in the art, many modifications to, embodiments of and variations on the invention would be obvious in light of the above teachings and disclosure. All such embodiments, modifications and variations that fall within the scope of the appended claims are considered within the scope of the invention to the extent that is fair, legal and equitable. 

1. A shape supporting and form maintaining device for baseball and sports caps, said caps comprising a crown section and a visor section: said device comprised of a resilient material; said device comprising at least two surfaces; wherein said surfaces comprise a top surface having an essentially convex shape that substantially corresponds to the essentially concave shape of the inside surface of said crown section of cap; wherein said top surface includes a plurality of slots therein for aiding the conformance of the shape of said top surface of device to said inside surface of crown section of cap; whereby the shape of said cap is supported and its form maintained by said device inserted therein.
 2. A device as claimed in claim 1 wherein said resilient material is rubber, plastic or cardboard.
 3. A device as claimed in claim 1 wherein said resilient material is foam rubber.
 4. A device as claimed in claim 1, said device being of hollow construction therein, reducing the weight thereof.
 5. A device as claimed in claim 1 wherein the circumference of said top surface, when measured at a plane located at the base thereof, is less than the circumference measured at a plane located a distance above said base for reducing the pressure applied to the base of said crown section of cap by said device inserted therein.
 6. A device as claimed in claim 5 wherein the circumference of said top surface tapers in a linear fashion from value measured at said plane located a distance above said base to that measured at the base thereof.
 7. A device as claimed in claim 1 wherein said slots are three in number and evenly distributed around the center of said top surface of device.
 8. A device as claimed in claim 1 wherein said slots each originate at the center of said top surface of device and proceed in a radial direction toward the periphery thereof.
 9. A device as claimed in claim 8 wherein said surfaces further comprise a bottom surface wherein: said bottom surface includes at least three insertion indentations; said insertion indentations each originate in said bottom surface and extend therein; said insertion indentations are positioned so that, when said device is viewed from the top surface, the positions of said insertion indentations are interposed between the positions of said compliance slots.
 10. A device as claimed in claim 1 wherein said surfaces further comprise at least one bottom surface wherein said bottom surface includes a plurality of insertion indentations.
 11. A device as claimed in claim 10 wherein said insertion indentations comprise a plurality of holes that begin in said insertion surface of device and extend therein.
 12. A device as claimed in claim 1 wherein: said resilient material is rubber, plastic or cardboard; said slots are three in number and are evenly distributed about the center of said top surface of device; said slots each originate at the center of said top surface of device and proceed in a radial direction toward the periphery thereof; the circumference of said top surface, when measured at a plane located at the base thereof, is less than the circumference measured at a plane located a distance above said base for reducing the pressure applied to the base of said crown section of cap by said device inserted therein; said circumference of top surface tapers in a linear fashion from said value measured at plane located a distance above base to said circumference measured at the base thereof; said surfaces further comprise a bottom surface wherein: said bottom surface includes three insertion indentations; said insertion indentations each originate in said bottom surface and extend therein; said insertion indentations are positioned so that, when said device is viewed from the top surface, the positions of said insertion indentations are interposed between the positions of said slots; whereby the shape of said cap is supported and its form maintained by said device inserted therein.
 13. A shape supporting and form maintaining device for baseball and sports caps, said caps comprising a crown section and a visor section: said device comprising a formed mass of material; said material comprising a resilience means to facilitate the flexing of said device; said device further comprising a top surface wherein: said top surface comprises a conformance means to facilitate the conformance of the shape of said top surface to the shape of the inner surface of said crown section of cap; wherein said top surface further comprises a compliance means to facilitate the compliance of said device with the inner surface of said crown section of cap; whereby the shape of said cap is supported and its form maintained by said device inserted therein.
 14. A device as claimed in claim 13 wherein said resilience means comprises being fabricated from rubber, plastic or cardboard.
 15. A device as claimed in claim 13 wherein said conformance means comprises a convex shape that approximates the shape of the inside surface of said cap.
 16. A device as claimed in claim 13 wherein said compliance means comprises said top surface having a plurality of compliance slots therein.
 17. A device as claimed in claim 13 further comprising a bottom surface wherein said bottom surface comprises an installation means to facilitate the installation of said cap onto said device.
 18. A device as claimed in claim 17 wherein said installation means comprises a plurality of indentations, each indentation originating at said surface of device and extending therein.
 19. A device as claimed in claim 18 wherein said indentations are three in number, are positioned in an evenly spaced pattern about the center of said bottom surface and terminate in the interior material of said device.
 20. A shape supporting and form maintaining method for a baseball or sports cap, said cap comprising a crown section and a visor section, comprising: positioning said cap over a shape supporting and form maintaining device, said device comprising at least two surfaces, wherein the upper surface of said device is characterized as having a convex shape, said convex shape having a plurality of slots in its surface; applying pressure to said cap, in a manner favoring the brim area, in a direction perpendicular to said crown of cap so that said device flexes, said flexing causing the material of said upper surface of device to move into the volume of said slots, allowing said cap to slip onto said device; positioning said cap further onto said device so that said convex surface of device is in frictional contact with the inner surface of said crown of cap; further positioning said cap so that the brim area of said cap is positioned around the base of said device to smooth out and minimize creases or wrinkles in said crown of cap; releasing said cap to allow said device to attempt to return to its normal condition, thereby applying pressure to the inside surface of said crown of cap in a direction essentially normal thereto; whereby said device assists in supporting the shape of and maintaining the form of said crown of cap. 